1335915 (1) ‘ 玖、發明說明 【發明所屬之技術領域】 本發明係有關一種米氮平純鏡像異構物的製備方法, 包括用酸進行環閉合。 【先前技術】 米氮平,],2,3,4,10,14b -六氫-2-甲基-吡畊并 [2 ’ Ι-a]吡啶并[2,3-c] [2]苯并氮雜罩,爲具有式I之四 環化合物:1335915 (1) ‘ 玖 发明 发明 发明 发明 发明 发明 发明 【 【 【 【 【 【 【 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 [Prior Art] Mirtazapine,], 2,3,4,10,14b-hexahydro-2-methyl-pyrazine[2 'Ι-a]pyrido[2,3-c] [2] Benzodiazepine, a tetracyclic compound having the formula I:
該化合物具手徵性(chiral )且其消旋混合物廣泛用 爲治療抑鬱所甩藥物。米氮平的其他醫學用途也已有報導 ,例如WO 99/2 5 3 5 6和WO 0 1 /5 845 3揭示其在睡眠失調症 和呼吸的治療中之用途。對於米氮平鏡像異構物所具生物 學效應之硏究 (例如 D'Connor and Leonard., NeuropHarmacology , 1 9 8 6 , Vo]. 25 , p p. 267-270;The compound is chiral and its racemic mixture is widely used as a medicament for the treatment of depression. Other medical uses of mirtazapine have also been reported, for example, in WO 99/2 5 3 5 6 and WO 0 1 /5 845 3 for their use in the treatment of sleep disorders and breathing. A study of the biological effects of mirtazapine mirror isomers (eg D'Connor and Leonard., NeuropHarmacology, 1 9 8 6 , Vo]. 25 , p p. 267-270;
Kooyman et a]·, ]994,V 〇 1. 33,pp.501-507; D e Boer et a]., NeuropHarmacology,1988,V ο 1. 27,p 8. 3 9 9-408; Gower et a】·, ] 9 8 8,V 〇 1. 2 9 I,pp · 1 8 5 - 2 0 1 )啓示出該 -5- (2) · (2) ·1335915 化合物在其純鏡像異構形式中之用途,因而開啓大量製造 米氮平純鏡像異構物之需求。本發明提供此等製造方法之 改良。 技藝中已知有廣多種方法可用來製備米氮平。US 4 062 8 48述及在一 4階段合成反應程序中的變異,其中可經 由從2-取代蔽驗腈 (2-Substituted nicotinitrile )起始完 成米氮平的合成。對此途徑旳各階段之進一步修改也在隨 後於 W0 樹脂 62782,W0 01/23345 和 US 6,376,668 中述及 〇 米氮平純鏡像異構物的製備已在US 4062848,W0 00/02782 和 Selditz et al., 1 9 9 8 (J. ChromazograpHy, 1 99 8,Vol. 803,pp. 1 69- 1 77)中述及。以 US 4062848 中 所揭示的方法,經由將消旋米氮平與二苯甲醯基酒石酸純 鏡像異構物在乙醇中反應形成的非鏡像異構鹽予以分段結 晶接著用氨水處理再生出游離鹼可得米氮平純鏡像異構物 。經由將粗製米氮平再結晶形成純米氮平的其他方法揭示 於W0 00/62 7 82之中。Selditz et a].述及一種分離鏡像異 構物的層析法。於此等方法中,在合成途徑的結束時發生 拆分 (resolution )而導致消旋米氮平混合物之產生。所 以’所得每一純鏡像異構化合物的總產率都相當低且可能 都不會超過5 0%。若能有一更經濟的方法以總體改良的產 率製備米氮平純鏡像異構物,將爲有益者。 根據US 4062848中所述方法,米氮平可由式(Π)化 合物的閉環結果而得 -6 - (3) (3)1335915Kooyman et a],, 994, V 〇 1. 33, pp. 501-507; D e Boer et a]., NeuropHarmacology, 1988, V ο 1. 27, p 8. 3 9 9-408; Gower et a]·, ] 9 8 8,V 〇1. 2 9 I,pp · 1 8 5 - 2 0 1 ) The 5-(2) · (2) · 1335915 compound is shown in its purely mirror image The use in the process has opened up the need for large quantities of pure mirtafilium isomers. The present invention provides improvements in such manufacturing methods. A wide variety of methods are known in the art for preparing mirtazapine. US 4 062 8 48 describes a variation in a 4-stage synthetic reaction procedure in which the synthesis of mirtazapine can be accomplished starting from a 2-substituted nicotinitrile. Further modifications to the various stages of this approach are also described in W0 Resin 62782, WO 01/23345 and US 6,376,668 for the preparation of pure mirror image isomers of glutathione in US 4062848, W0 00/02782 and Selditz et Al., 1 9 9 8 (J. Chromazogra pHy, 1 99 8, Vol. 803, pp. 1 69-1 77). According to the method disclosed in US Pat. No. 4,628,248, a non-image salt of a non-image salt formed by reacting racemic mirtazapine with a pure mirror image of benzoic acid tartaric acid in ethanol is subjected to fractional crystallization followed by treatment with ammonia water to regenerate free The base can be obtained as a pure mirror image isomer of mirtazapine. Other methods for recrystallizing crude mirtazapine to form pure mirtazapine are disclosed in WO 00/62 7 82. Selditz et al. describe a chromatographic method for separating mirror image isomers. In such methods, resolution occurs at the end of the synthesis pathway resulting in the production of a racemic mirtazapine mixture. Therefore, the total yield of each pure image-image-isomerized compound obtained is quite low and may not exceed 50%. It would be beneficial if there would be a more economical way to prepare mirtazapine pure mirror image isomers at an overall improved yield. According to the method described in U.S. Patent No. 4,062,248, mirtazapine can be obtained from the ring closure of the compound of the formula ( Π ) -6 - (3) (3) 1335915
其中X可表一脫離基,例如羥基,經酯化或醚化的羥基或 鹵素,其中可使用多種閉環劑。此等閉環劑的例子包括, 例如,硫酸,濃鹽酸,苦味酸,三氟乙酸,磷酸,多磷酸 (PPA),氧氯化磷,三氧化磷,五氧化鱗和路以士酸 ( L e w i s a c i d )例如氯化鋁,氯化鐵,氯化鋅,氯化銘,氣 化駄,三氟化硼,五氯化錄和四氯化銷。於U S 4 0 6 2 8 4 8中 ,米氮平的製備例係使用濃硫酸進行閉環。於W0 00/62 782中,指出濃硫酸係最佳者。於US 4 062 84 8中,有 評論到’可於最後閉環步驟中使用純鏡像異構起始物而合 成地得到米氮平純鏡像異構物。不過,在WO 00/627 82中 所述使用濃硫酸的方法不足以保留住光學純度。顯然地, 彼等反應條件會促成過度的消旋化。 令人訝異地,頃發現對於經由純鏡像異構式(Π )化 合物的閉環進行的米氮平純鏡像異構物之合成,可以經由 從上述閉環劑特異地選擇而保留住起始物的立體化學完整性 (4) · (4) ·1335915 【發明內容】 本發明因而提供一種包括式(Π)化合物的閉環步驟 之方法,於式(π)中X爲一脫離基,該步驟包括處理, 其中經由用適當酸在沒有溶劑之下或用一酸和一有機溶劑 的適當組合處理使有鏡像異構超量的式(π)化合物閉環 而形成有鏡像異構超的米氮平。式π醇較佳者係以結晶鹽 或溶劑合物之形式使用,例如(S)或(R) 1_ (3-羥甲基-2 -卩比11疋基)-4•甲基-2-苯基呢哄之早酸鹽。視需要地,於反 應混合物中加入代卡利特(d i c a Π t e ,矽藻土)以防止結 塊形成。 術語π米氮平〃於本文中係以其常用來指稱該化學化 合物的通用意義使用,可爲鹼及,依內文而定,其鹽和溶劑 合物及在用前置字(R)或(S)補充之下,指稱該化合物 的鏡像異構物。(S)構型可在常用溶劑中引起正旋光。 術語"化合物的鏡像異構超量"指的是在混合物中每 一鏡像異構物的量之差値相對於該化合物在該混合物中的總 量之比例,係以百分比表出者。例如,在含9克米氮平 (90%)的10克混合物中,有4克爲(R)-米氮平且5克爲(S) •米氮平,則(S)-鏡像異構物的鏡像異構超量爲約I 1 %。 於縮寫方式中,術語^具鏡像異構超量的米氣平或化合物 "指的是含有鏡像異構超量的米氮平或化合物之混合物。 若使用純鏡像異構起始物且該閉環係經由使用適當酸 在沒有溶劑中或用酸和有機溶劑的適當組合處理而促成者 之時,本發明可提供米氮平的純鏡像異構物。 (5) (5) 1335915 化合物的純鏡像異構物爲包括少於20%另一鏡像異構 物者,其爲具有60%之鏡像異構超量。依本發明方法的特 殊條件而定’也可以得到具有少於1 0%另一鏡像異構物或 少於】%另一鏡像異構物之一化合物的純鏡像異構物。所離 析出的米氮平之純鏡像異構物的產率典型地不低於50%, 不過也可以得到不低於7 0 %的產率。 —脫離基爲在一分子上的反應性官能基,其在形成一 新鍵時,會從分子置換掉,如技藝中一般所知者。更特定 言之’ 一脫離基可爲一羥基,其活性酯,如羧酸酯,磺酸 酯或磷酸酯,或爲一鹵素。具有此功能的基爲技藝中一般 知悉者且其名單可經由參考一般可取得之有機合成手冊而 進一步擴充。 本發明方法所用的適當酸係經定義爲後文所提及的特 定酸或酸/溶劑組合’或後文未提及,但經實施對酸的適當 性之試驗而得之酸或酸/溶劑組合。該試驗係用酸,一候酸 酸,與起始物,上面定義的化合物Π,或其鹽或溶劑合物 ,以預定的-鏡像異構純度,實施閉環反應,且於反應之後 測定所得米氮平的鏡像異構超量。鏡像異構純度的損失程 度之量可經由簡單的計算而定出且表爲反應前的起始物鏡 像異構超量與反應後產物米氮平的鏡像異構超量之間的差 値。若損失率低於4〇%,則該酸或酸/溶劑組合係適當的酸 或酸/溶劑組合。比較嚴格的標準則是可以選擇所.造成的 減損在低於介於0 %與4 0 %之間任何數値的適當酸或酸/溶 齊!]組合,例如 3 5 % , 3 0%, 25% > 20% > ] 5 % > ] 0% , 5 % , (6) (6)1335915 2 % ’ I %,Ο . 5 %和Ο . 3 % ·所以本發明的—方面爲提供—種 選擇適合用於立體特異性閉環反應以導致米氮平純鏡像異 構物的酸或酸/溶劑組合之方法。該方法包括用任何候選 酸或任何候選酸/溶劑組合實施式Π (X爲前面所定意義) 化合物的純鏡像異構物,或其鹽或溶劑合物,之閉環反應 ,及測定反應所致鏡像異構超量之減損率並於減損率低於 4〇 %時鑑定出適當的酸或酸/溶劑組合。適需要地,可對更 適當的酸或酸/溶劑組合施用上述更嚴格的準則。 於沒有溶劑時用的適當酸可爲質子型酸或質子型酸衍 生物例如質子型酸酐。先前技藝方法選用來製備消旋性米 氮平濃硫酸,或三氯化鋁都不適合。 對於在沒有溶劑時使用適當酸進行閉環反應,特別較 佳者爲使用多碟酸或五氧化磷在磷酸中。經建議以低幅超 過上面經定義的化合物π的起始物之量使用多磷酸,或五 氧化磷/磷酸。若多磷酸對醇(化合物Π鹼的重量)之比例 (w/w)低於]0對1 (w/w),或較佳者5對1,甚至更佳者若低 於2.5對1時,該反應可得更佳產率及更佳地保留經鏡像異構 超量。當多磷酸係以五氧化物和磷酸的量(可能爲1:1至1:9 的五氧化物對磷酸的重量(w/w)比例)導入時,係將五氧 化磷和磷酸的重量加到高達表出多磷酸之總量。 適當的酸和有機溶劑組合可爲質子型酸或質子型酸衍生 物例如質子型酸酐或礦酸與一極性配位溶劑例.如乙醇或更高 級醇’ DMF ’ DMA或N-甲基吡咯烷酮之組合。更佳者爲使用 質子型酸衍生物和N-甲基吡咯烷酮或DMF之組合。特別較佳 -10 - (7) 1335915 者爲多磷酸和N-甲基吡咯烷酮或DMF。 酸/溶劑組合:五氧化磷或多磷酸或硫酸/二甲苯;五氧 化隣或多磷酸/氯苯;五氧化磷或多磷酸/甲苯;及硫酸/二 氯甲烷,都不適合。 雖然閉環反應可在室溫下進行,不過也可以額外加熱來 幫助反應。所以,本發明另一方面係包括額外加熱的本發明 方法之閉環反應。 式(Π)化合物可用US 4062848中所述反應程序1中所 示合成途徑予以製備。Wherein X may be a leaving group such as a hydroxyl group, an esterified or etherified hydroxyl group or a halogen, and a plurality of ring-closing agents may be used. Examples of such ring-closing agents include, for example, sulfuric acid, concentrated hydrochloric acid, picric acid, trifluoroacetic acid, phosphoric acid, polyphosphoric acid (PPA), phosphorus oxychloride, phosphorus trioxide, pentoxide scale and lysine (L ewisacid) For example, aluminum chloride, ferric chloride, zinc chloride, chlorinated, gasified ruthenium, boron trifluoride, pentachloride and tetrachlorinated pin. In U S 4 0 6 2 8 4 8 , the preparation of mirtazapine is closed using concentrated sulfuric acid. In W0 00/62 782, it is indicated that the concentrated sulfuric acid is the best. In U.S. Patent 4,062,840, it is noted that the mirtazapine image isomer can be synthesized synthetically using the pure image isomer starting material in the final ring closure step. However, the method of using concentrated sulfuric acid as described in WO 00/627 82 is not sufficient to retain optical purity. Obviously, their reaction conditions will contribute to excessive racemization. Surprisingly, it has been found that for the synthesis of mirtazapine pure mirror image isomers via a closed loop of a purely mirror imaged (Π) compound, the starting material can be retained by specific selection from the above ring closure agent. Stereochemical Integrity (4) · (4) · 1335915 SUMMARY OF THE INVENTION The present invention therefore provides a method comprising a ring closure step of a compound of the formula (π) wherein X is a leaving group, the step comprising treating Wherein the mirtazapine having a mirror image isomerized is formed by ring closure of a compound of formula (π) having a mirror image isomerized by treatment with a suitable acid in the absence of a solvent or with a suitable combination of an acid and an organic solvent. Preferably, the π alcohol is used in the form of a crystalline salt or a solvate, for example (S) or (R) 1_(3-hydroxymethyl-2-indenyl 11 yl)-4•methyl-2- Early acid salt of phenyl ruthenium. If necessary, a daikanite (d i c a Π t e , diatomaceous earth) is added to the reaction mixture to prevent the formation of agglomerates. The term π mirtazapine is used herein to refer to the general meaning of the chemical compound as commonly used, and may be a base and, depending on the context, its salts and solvates, and the use of the prefix (R) or (S) In addition, the mirror image isomer of the compound is referred to. The (S) configuration can cause positive rotation in a common solvent. The term "mirroromerism excess of a compound" refers to the ratio of the amount of each mirror image isomer in the mixture to the total amount of the compound in the mixture, expressed as a percentage. For example, in a 10 gram mixture containing 9 grams of mirtazapine (90%), 4 grams is (R)-mirtazapine and 5 grams is (S) • mirtazapine, then (S)-image isomerism The mirror image heterogeneous excess of the material is about I 1 %. In the abbreviated form, the term "mirror-isolated rice hydrate or compound " refers to a mixture of mirtazapine or a compound containing a mirror image heterogeneous excess. The present invention provides a pure mirror image isomer of mirtazapine if a pure mirror image isomer starting material is used and the ring closure is facilitated by the use of a suitable acid in the absence of a solvent or with a suitable combination of an acid and an organic solvent. . (5) (5) 1335915 The pure mirror image isomer of the compound is less than 20% of another mirror image isomer, which has a 60% mirror image heterogeneous excess. Depending on the particular conditions of the process of the invention, it is also possible to obtain pure image isomers having less than 10% of another mirror image isomer or less than 5% of one of the other image isomers. The yield of the pure mirex isomers of the isolated mirtazapine is typically not less than 50%, but a yield of not less than 70% can also be obtained. - The cleavage group is a reactive functional group on one molecule which, upon formation of a new bond, is displaced from the molecule, as is generally known in the art. More specifically, a leaving group can be a hydroxyl group, an active ester such as a carboxylate, a sulfonate or a phosphate, or a halogen. The basis for this function is generally known to the art and its list can be further extended by reference to commonly available organic synthesis manuals. Suitable acids for use in the process of the invention are defined as the particular acid or acid/solvent combination referred to hereinafter or an acid or acid/solvent which is not mentioned hereinafter but which is tested for the suitability of the acid. combination. The test uses a acid, a monoacid, and a starting compound, a compound hydrazine as defined above, or a salt or solvate thereof, to carry out a ring closure reaction in a predetermined-mirror isomeric purity, and the resulting rice is measured after the reaction. The image isomerism excess of nitrogen flat. The amount of loss of the image-isomeromer purity can be determined by simple calculations and is expressed as the difference between the image-to-isomeric excess of the starting material before the reaction and the mirror-imaged excess of the reaction product, mirtazapine. If the loss rate is less than 4%, the acid or acid/solvent combination is a suitable acid or acid/solvent combination. The more stringent standard is the combination of the appropriate acid or acid/solubility that can be chosen to be less than any number between 0% and 40%, such as 3 5 %, 30%, 25% > 20% > ] 5 % > ] 0% , 5 % , (6) (6) 1335915 2 % ' I %, Ο . 5 % and Ο . 3 % · So the aspect of the invention is A method of selecting an acid or acid/solvent combination suitable for use in a stereospecific ring closure reaction to result in a pure mirror image isomer of mirtazapine is provided. The method comprises the use of any candidate acid or any candidate acid/solvent combination to carry out a ring image reaction of a pure smectomer of a compound of formula (X is a previously defined meaning), or a salt or solvate thereof, and a mirror image of the reaction The rate of isomerization of the heterogeneous excess and the appropriate acid or acid/solvent combination is identified when the rate of loss is less than 4%. Suitably, the more stringent criteria described above can be applied to a more suitable acid or acid/solvent combination. Suitable acids for use in the absence of a solvent may be protic or protic acid derivatives such as protic anhydrides. The prior art method was chosen to prepare racemic mirtazapine concentrated sulphuric acid, or aluminum trichloride was not suitable. For the ring closure reaction using a suitable acid in the absence of a solvent, it is especially preferred to use a multi-plate acid or phosphorus pentoxide in phosphoric acid. It is recommended to use polyphosphoric acid, or phosphorus pentoxide/phosphoric acid, in an amount which is lower than the starting material of the compound π defined above. If the ratio of polyphosphoric acid to the weight of the alcohol (the weight of the compound sulfonamide) (w/w) is lower than 0 to 1 (w/w), or preferably 5 to 1, even better if less than 2.5 to 1 This reaction gives better yields and better retention of the mirror imaged excess. When polyphosphoric acid is introduced in the amount of pentoxide and phosphoric acid (possibly 1:1 to 1:9 by weight of pentoxide to phosphoric acid (w/w)), the weight of phosphorus pentoxide and phosphoric acid is added. Up to the total amount of polyphosphoric acid. Suitable acid and organic solvent combinations may be protic or protic acid derivatives such as protic anhydrides or mineral acids with a polar coordinating solvent such as ethanol or higher alcohol 'DMF' DMA or N-methylpyrrolidone combination. More preferably, a combination of a protic acid derivative and N-methylpyrrolidone or DMF is used. Particularly preferred is -10 - (7) 1335915 which is polyphosphoric acid and N-methylpyrrolidone or DMF. Acid/solvent combination: phosphorus pentoxide or polyphosphoric acid or sulfuric acid/xylene; pentoxide or polyphosphoric acid/chlorobenzene; phosphorus pentoxide or polyphosphoric acid/toluene; and sulfuric acid/dichloromethane are not suitable. Although the ring closure reaction can be carried out at room temperature, additional heating can be used to aid the reaction. Therefore, another aspect of the invention is a ring closure reaction comprising the additional method of the invention. The compound of the formula (Π) can be prepared by the synthetic route shown in Reaction Scheme 1 described in U.S. Patent 4,062,248.
反應程序1 如此,可經由用化合物(iv )與氯菸酸腈(m )在有 機溶劑,例如四氫呋喃或二甲基甲醯胺內且在一當量鹼例 如氧化鉀存在中反應製成化合物(V )。然後經由使用鹼 -11 - (8) ' (8) '1335915 水溶液例如氫氧化鉀/醇例如乙醇中將化合物 (V )水解, 典型地,在回流下,而製備化合物 (VI )。於W0 0 0/62 7 8 2中述及用來促成腈水解的鹼之莫耳比可以從25莫 耳酸(如在美國專利4〇62848的程序中所揭示者)減低到 約1 2莫耳驗。最後,經由使用金屬氫化物例如氫化鋰錦在 有機溶劑例如四氫呋喃中將化合物 (V I)再度還原可製得 化合物(Π)。醇官能基轉化成其他脫離基例如羧酸醋和 磺酸酯及成爲鹵素之步驟可用技藝中熟知的方法予以達成 〇 然後可以使用技藝中熟知的方法達成化合物(Π )純 鏡像異構物之製備。例如,不對稱合成法,如用手徵誘導 的合成,將與手徵性酸反應後形成的非鏡像異構性鹽分部 結晶或以正相或逆相層析法在手徵性介質上進行層析術分 離。此等方法都載於例如"Chirality in Industry" (edited by A. N. Collins j G. N. Sheldrake and J. Crosby,1992; John Wiley )。 本發明也包括以本發明方法製得之米氮平純鏡像異構 物及用於治療中的彼之藥學組成物。此等組成物可包括一 治療有效量的米氮平純鏡像異構物組合著技藝中熟知的藥 學上可接受之載劑和賦形劑。 本發明要藉由下面諸實施例予以闈明。 【實施方式】 實施例1 a -12 - (12) . (12) .1335915 。將合倂有機層液份用水(22毫升)萃洗三次,用MgSCh 脫水並蒸發。此得到0.79克(S)-米氮平 (84%) ,ee爲83% 實施例9 將 (S) - 1- (3-羥基甲基-2-吡啶基)-4-甲基-2-苯基哌畊 (15.18克,5].05毫莫耳)於乙醇(30毫升)中的溶液加至在 溫度48°C的硫酸(30.36毫升)中。於一夜之後,加入額外 量的硫酸(30毫升)。4小時之後反應完成。加入水(195毫 升)接著加入氫氧化鈉溶液 (8.3M)直到沈澱形成爲止。 水層用乙酸乙酯萃取。有機層隨後用氫氧化鈉溶液,接著氯 化鈉溶液萃取,用硫酸鎂脫水並蒸發。此產生標題化合物 (7.97克,59%) ,ee爲 62%。 實施例1 0 用不適當的酸/溶劑組合以供比較 將濃硫酸(2.2毫升)加到(S) · 1- (3-羥基甲基-2-吼啶 基)-4·甲基-2·苯基哌畊(0·29克,1·03毫莫耳)。加入二氯 甲烷以形成透明溶液。於40 °C減壓下蒸發二氯甲烷。在48 °C下攪拌反應混合物。4小時之後反應完成》加入氫氧化鈉 溶液(1 N)直到乳液形成爲止。水層用乙醚萃取》乙醚層 用水萃洗,用硫酸鎂脫水並蒸發。此得到標題化合物(0.17 克,62%) , ee爲 36%。Reaction Procedure 1 Thus, a compound (V) can be prepared by reacting the compound (iv) with chloronicotinonitrile (m) in an organic solvent such as tetrahydrofuran or dimethylformamide in the presence of one equivalent of a base such as potassium oxide. ). Compound (VI) is then prepared by hydrolysis of compound (V) using an aqueous solution of base -11 - (8) '(8) '1335915, such as potassium hydroxide/alcohol such as ethanol, typically under reflux. The molar ratio of the base used to promote the hydrolysis of the nitrile in WO 0 0/62 7 8 2 can be reduced from 25 moles of acid (as disclosed in the procedure of U.S. Patent 4,628,48) to about 1 2 Ear test. Finally, the compound (V) can be obtained by re-reducing the compound (V I) by using a metal hydride such as lithium hydride in an organic solvent such as tetrahydrofuran. The conversion of the alcohol functional group to other cleavage groups such as carboxylic acid vinegar and sulfonate and to the halogen can be accomplished by methods well known in the art, and then the preparation of the compound (Π) pure image isomer can be achieved using methods well known in the art. . For example, asymmetric synthesis, such as chiral-induced synthesis, crystallization of a non-Spiegellant salt formed after reaction with a chiral acid or by normal phase or reverse phase chromatography on a chiral medium Chromatography separation. These methods are described, for example, in "Chirality in Industry" (edited by A. N. Collins j G. N. Sheldrake and J. Crosby, 1992; John Wiley). The present invention also encompasses the mirtazapine enantiomers prepared by the process of the present invention and the pharmaceutical compositions thereof for use in therapy. Such compositions may include a therapeutically effective amount of a mirtazapine pure mirror image isomer in combination with pharmaceutically acceptable carriers and excipients which are well known in the art. The invention is illustrated by the following examples. [Embodiment] Example 1 a -12 - (12) . (12) .1335915. The combined organic layers were extracted three times with water (22 mL), dried with EtOAc and evaporated. This gave 0.79 g of (S)-mirtazapine (84%) and an ee of 83%. Example 9 (S) - 1-(3-hydroxymethyl-2-pyridyl)-4-methyl-2- A solution of phenyl pipeplin (15.18 g, 5].05 mmol) in ethanol (30 mL) was added to sulfuric acid (30.36 mL) at EtOAc. After one night, an additional amount of sulfuric acid (30 mL) was added. The reaction was completed after 4 hours. Water (195 ml) was added followed by sodium hydroxide solution (8.3 M) until the precipitate formed. The aqueous layer was extracted with ethyl acetate. The organic layer was then extracted with a sodium hydroxide solution then sodium chloride solution, dried over magnesium sulfate and evaporated. This gave the title compound (7.97 g, 59%) with ee 62%. Example 1 0 Combination of an inappropriate acid/solvent for comparison Concentrated sulfuric acid (2.2 ml) was added to (S) · 1-(3-hydroxymethyl-2-acridinyl)-4.methyl-2 • Phenyl piped (0·29 g, 1.03 mmol). Dichloromethane was added to form a clear solution. The dichloromethane was evaporated under reduced pressure at 40 °C. The reaction mixture was stirred at 48 °C. The reaction was completed after 4 hours. A sodium hydroxide solution (1 N) was added until the emulsion was formed. The aqueous layer was extracted with diethyl ether. The ether layer was washed with water, dried over magnesium sulfate and evaporated. This gave the title compound (0.17 g, 62%) with ee 36%.